Estimating the Maximum Vertical Velocity at the Leading Edge of a Density Current

Reif, Dylan W.; Bluestein, Howard B.; Weckwerth, Tammy M.; Wienhoff, Zachary B.; Chasteen, Manda B.

doi:10.1175/jas-d-20-0028.1

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i

Estimating the Maximum Vertical Velocity at the Leading Edge of a Density Current

2020
By Reif, Dylan W. ; Bluestein, Howard B. ; Weckwerth, Tammy M. ; ...
Source: Journal of the Atmospheric Sciences, 77(11), 3683-3700

[PDF-4.14 MB]

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Journal Title:

Journal of the Atmospheric Sciences
Personal Author:

Reif, Dylan W. ; Bluestein, Howard B. ; Weckwerth, Tammy M. ; Wienhoff, Zachary B. ; Chasteen, Manda B.

Reif, Dylan W. ; Bluestein, Howard B. ; Weckwerth, Tammy M. ; Wienhoff, Zachary B. ; Chasteen, Manda B. Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research) ; CIMMS (Cooperative Institute for Mesoscale Meteorological Studies) ; NSSL (National Severe Storms Laboratory)

OAR (Oceanic and Atmospheric Research) ; CIMMS (Cooperative Institute for Mesoscale Meteorological Studies) ; NSSL (National Severe Storms Laboratory) Less -
Description:

The maximum upward vertical velocity at the leading edge of a density current is commonly <10 m s−1. Studies of the vertical velocity, however, are relatively few, in part owing to the dearth of high-spatiotemporal-resolution observations. During the Plains Elevated Convection At Night (PECAN) field project, a mobile Doppler lidar measured a maximum vertical velocity of 13 m s−1 at the leading edge of a density current created by a mesoscale convective system during the night of 15 July 2015. Two other vertically pointing instruments recorded 8 m s−1 vertical velocities at the leading edge of the density current on the same night. This study describes the structure of the density current and attempts to estimate the maximum vertical velocity at their leading edges using the following properties: the density current depth, the slope of its head, and its perturbation potential temperature. The method is then be applied to estimate the maximum vertical velocity at the leading edge of density currents using idealized numerical simulations conducted in neutral and stable atmospheres with resting base states and in neutral and stable atmospheres with vertical wind shear. After testing this method on idealized simulations, this method is then used to estimate the vertical velocity at the leading edge of density currents documented in several previous studies. It was found that the maximum vertical velocity can be estimated to within 10%–15% of the observed or simulated maximum vertical velocity and indirectly accounts for parameters including environmental wind shear and static stability.
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Atmospheric Science
Source:

Journal of the Atmospheric Sciences, 77(11), 3683-3700
DOI:

https://doi.org/10.1175/jas-d-20-0028.1
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0022-4928;1520-0469;
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PDF
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American Meteorological Society
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Journal Article
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urn:sha256:ea79a879e2a95ee109a86a56b4dc5f81ebac3aeeadefad59ef1bb8c06d5bc8fb
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https://repository.library.noaa.gov/view/noaa/54466/noaa_54466_DS1.pdf
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Estimating the Maximum Vertical Velocity at the Leading Edge of a Density Current

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